Gene Details:
- Gene ID: MD10G1145400
- Gene Symbol: MdHDA19
- Gene Name: histone deacetylase 19
- Genome: Golden ASM211411v1
- Species: Malus domestica
Functional Descriptions:
- A histone deacetylase (MdHDA19) is recruited to the MdERF4–MdTPL4 complex, thereby impacting fruit ethylene biosynthesis. Transient suppression of MdHDA19 expression promoted fruit ripening and ethylene production.
- MdHDA19 affects ethylene production by facilitating H3K9 deacetylation and forms a complex with MdERF4–MdTPL4 to directly repress MdACS3a expression by decreasing the degree of acetylation.
- Our results reveal that the MdERF4–MdTPL–MdHDA19 repressor complex participates in the epigenetic regulation of apple fruit ripening.
- Ethylene response factor MdERF4 and histone deacetylase MdHDA19 suppress apple fruit ripening through histone deacetylation of ripening related genes.
Function-related keywords:
Literature:
- Ethylene response factor MdERF4 and histone deacetylase MdHDA19 suppress apple fruit ripening through histone deacetylation of ripening-related genes. DOI: 10.1093/plphys/kiac016 ; PMID: 35088866
Related News:
Gene Resources:
Sequences:
cDNA Sequence
mRNA Sequence
- />MD10G1145400
TTTCCCCATTAAATAAATCAGATATAAATAAAGCAGTTTCCTTACATTGATTTGATGCCCTACCCGCCGATTTAAACCCCCAATAAAAATCTGGTTTCCGCCGACGATGGACACCGGCGGCAACTCTCTAGCGTCGGGTCCCGACGGCGTGAAGAGGAAGGTGAGCTATTTCTACGACCCAGAAGTGGGAAATTACTATTATGGGCAGGGCCACCCGATGAAGCCCCACCGGATTCGGATGACCCACGCCCTCCTCGCCCACTACGGCCTCCTCCAGAACATGCAGGTCCTCAAACCCTACCCGGCCCGCGACCGCGACCTCTGCCGCTTCCACGCCGACGATTACGTGGCGTTCCTCCGGAACATCACCCCGGAAACCCAGCAGGACCAGCTGCGGCAGCTCAAGCGGTTCAATGTCGGCGAGGACTGCCCTGTCTTTGATGGGTTGTACTCGTTTTGCCAGACCTACGCCGGCGGGTCGGTCGGCGGCGCTGTGAAGCTCAACCATGGGATTTGCGACATTTCGATTAATTGGGCTGGAGGTTTGCACCACGCTAAAAAGTGTGAGGCTTCTGGGTTTTGCTATGTGAATGACATTGTTCTTGCAATTTTGGAGCTTCTTAAGCAGCACGAGCGCGTTTTGTATGTGGATATTGATATTCACCATGGAGACGGTGTTGAGGAGGCGTTTTACACGACAGACAGGGTCATGACCGTTTCGTTTCATAAGTTTGGGGATTATTTCCCTGGCACAGGGGACATTCGCGATATTGGGTACGGAAAAGGGAAGTATTACTCCCTTAATGTCCCGTTGGATGACGGGATTGATGATGAGAGCTACCATTACTTGTTCAAGCCCATCATTGGGAAGGTGATGGAAATTTTTAAGCCTGGGGCTGTGGTTCTCCAGTGTGGTGCTGATTCCTTATCTGGAGACAGGCTTGGCTGCTTCAATCTTTCTATCAAAGGTCATGCTGAGTGTGTTAGATATATGAGATCCTTCAACGTCCCGCTCTTGCTTCTAGGTGGTGGTGGCTATACCATTCGCAATGTTGCTCGTTGCTGGTGCTACGAGACAGGAGTAGCACTTGGAGCAGAAATTGAGGACAAAATGCCACAGCACGAGTATTATGAGTATTTTGGTCCAGATTACACTCTTCACGTTGCCCCGAGTAACATGGAAAATAAGAACTCTCATGTGTTACTAGAAGAAATACGGTCAAAGCTTCTTGAAAACCTCTCCACGCTTCAGCATGCACCCAGTGTCCAATTTCAGGACAGACCTCCTGATACTGAGCTTCCGGAGGAGAATGAAGAACAGGATGACCCAGATGAGAGGTGGGATCCAGATTCTGATATGGAGGTTGATGATGAACGTAAGCCTTTACCAAGCAGAGTAAAGAAAGAGATCGTTGAACCTGAGGTTAAAGATCCGAAAGGGACCTCGGAGAATGCTAGAAGCTCAGGCTATGATCCAGCAGTAGATGAGATTACGACAGGAACAAAGGCTTTGGATATGGGCTCTGGATCTGCGGATGAACCAGCTGTGAAGGTTGAACAAGAGACTACGAATAAACCTGCAGACCAGATATAAACGTTATCACGAGCAAATTTATTTGGGGTGACTTTATCACCAAGTCATTCTAACTTATCCATCGCTCGACAAAGAAAAACTTTCAACCGTCCAACGATTTGTGAAGTTGGTAATTTATTTGAGCTGTTGCATTTCATGCATCTTAGCATTTCCTGTATCGTAGTATTTCTTGTATTTGGTAAGAATTCAACGCTTGTTTAAACTTATATGGATAAGTATCCAAATTTGGCAGATGCGTCGATTTGTAATTATACTGTCGTACCTTAAAACTGTATATTTTTGTCGGAACCCTAAAACCGTGTTTATTTCAGGAATCATAATTCCAATCGGTAGTCCTGTCCC
Protein Sequence
- />MD10G1145400
MDTGGNSLASGPDGVKRKVSYFYDPEVGNYYYGQGHPMKPHRIRMTHALLAHYGLLQNMQVLKPYPARDRDLCRFHADDYVAFLRNITPETQQDQLRQLKRFNVGEDCPVFDGLYSFCQTYAGGSVGGAVKLNHGICDISINWAGGLHHAKKCEASGFCYVNDIVLAILELLKQHERVLYVDIDIHHGDGVEEAFYTTDRVMTVSFHKFGDYFPGTGDIRDIGYGKGKYYSLNVPLDDGIDDESYHYLFKPIIGKVMEIFKPGAVVLQCGADSLSGDRLGCFNLSIKGHAECVRYMRSFNVPLLLLGGGGYTIRNVARCWCYETGVALGAEIEDKMPQHEYYEYFGPDYTLHVAPSNMENKNSHVLLEEIRSKLLENLSTLQHAPSVQFQDRPPDTELPEENEEQDDPDERWDPDSDMEVDDERKPLPSRVKKEIVEPEVKDPKGTSENARSSGYDPAVDEITTGTKALDMGSGSADEPAVKVEQETTNKPADQI